RU2162170C1 - Combined bushing - Google Patents

Abstract

FIELD: engine engineering. SUBSTANCE: combined bushing may be used as water pump gland in internal combustion engines, compressors and protection devices for bearing assembly. Bushing has flexible body containing circular hollow for installation of graphitized ring in it and contrary-positioned internal cavity limited by circular layer of rubber mixture provided with circular knurls which serve for airtight coupling with water pump body. Bushing also has base provided with finned layer and internal curvilinear projections, as well as adapter jumper. It is also fitted with two reinforced members positioned independently. One of members is element of axial and radial surfaces of base. Adapter jumper size increases uniformly from base to other reinforced member. Internal cavity houses compression spring having truncated profile and nonuniform spiral pitch. EFFECT: enlarged operational capabilities. 3 dwg

Description

 The invention relates to the field of engine manufacturing and can be used as a water pump seal in ICE, compressors and devices needed to protect the bearing assembly holding a rotary shaft with a turbine that serves to supply a liquid medium, which can be used water or antifreeze or other components of oil products used for heat transfer.

 For the prototype adopted a patent of the Russian Federation N2126725 from 11. 09.1996. /1/.

 The disadvantages / 1 / include low technological capabilities.

 The objective of the new technical solution is to expand technological and operational capabilities.

 The task lies in the fact that the sleeve is combined, consisting of an elastic body containing an annular recess for installing a graphitized ring in it and an opposed inner cavity bounded by an annular layer of rubber compound provided with annular corrugations serving for tight connection with the water pump housing, characterized the fact that it contains a substrate having an enveloped layer and internal curvilinear protrusions, and a transition jumper, and is also equipped with two independently located GOVERNMENTAL reinforcement elements, one of which is an element of the axial and radial surfaces of the substrate, wherein the transient web has a uniform increase in the size of the substrate to the other reinforcement element arranged in the interior of compression spring having a truncated profile, and the uneven pitch helix.

 Description of the technical solution, taking into account the distinguishing features in the prototype / 1 /.

Combined sleeve (1), consisting of an elastic casing (5) containing an annular recess for installing a graphitized ring (4) in it and an opposed inner cavity (6) bounded by an annular layer of rubber compound provided with annular corrugations serving for tight connection with water pump housing, characterized in that:
contains a substrate having an enveloped layer and internal curvilinear protrusions, and a transition jumper, and is also equipped with two independently located reinforcement elements, one of which is an element of the axial and radial surfaces of the substrate;
transition jumper has a uniform increase in size from the substrate to another reinforcement element;
a compression spring is placed in the inner cavity, having a truncated profile and an uneven pitch of the spiral.

 An example of a sleeve combination.

Combined sleeve (1), consisting of an elastic case containing an annular recess for installing a graphitized ring (4) in it and an opposed inner cavity (6) bounded by an annular layer of rubber compound provided with annular corrugations (8-11), which serve for tight connection to the body of the water pump, characterized in that:
contains a substrate having an enveloped layer and internal curvilinear protrusions, and a transition jumper (5);
the combined sleeve is equipped with two independently located reinforcement elements (2 and 3), one of which is an element of the axial and radial surfaces of the substrate;
the transition jumper has a uniform increase in size from the substrate to another reinforcement element (3), a compression spring (7) is placed in the inner cavity (6), having a truncated profile and an uneven spiral pitch.

Graphic materials:
FIG. 1 - profile, with a partial cutout, the projection of the sleeve combined;
FIG. 2 - a fragment of the shaped changes in the bearing pads for the installation of the spring;
FIG. 3 - equivalent circuit of axial force acting on a combined sleeve, while studying the properties of the elastic part, consisting of a transition contour of the rubber compound and a compression spring of a conical shape.

Numeric and letter designations:
1 - combined sleeve, 2 - reinforcement element; 3 - reinforcement element; 4 - graphitized ring; 5 - transition jumper; 6 - internal cavity; 7 - spring; 8-11 - ring corrugations; 12 - conical surface; 13 - curved protrusion; 14 - outer surface, 15 - annular zone; 16 - inner recess; 17 - an annular layer of the rubber compound; 18 - ring corrugations; 19 - an annular surface; 20 - base annular surface; 21 - installation hole (pump housing); 22 - supporting axial surface of the substrate; 23 - supporting radial surface of the substrate; 24 - peeling layer; 25 - curved protrusions; P is the minimum loading force during bench tests of 68.7H; h is the height parameter varying in the amount of loading.

The economic efficiency of the new technical solution is to save an expensive rubber mixture relative to the well-known prototype of one or more grams. In addition, the design is able to provide guaranteed clamping of the graphitized ring over the entire period of the 300,000-kilometer run of the car, at a temperature from - 47 to 175 ^o C.

 The industrial usefulness of the new technical solution lies in its increasing demand by automotive factories.

Claims (1)

 Combined sleeve, consisting of an elastic casing containing an annular recess for installing a graphitized ring in it and an opposed inner cavity bounded by an annular layer of rubber compound provided with annular corrugations for sealing with the water pump casing, characterized in that it contains a substrate having the sheath layer and the internal curvilinear protrusions, and the transition jumper, and is also equipped with two independently located reinforcement elements, one of which s is an element of the axial and radial surfaces of the substrate, while the transition jumper has a uniform increase in size from the substrate to another reinforcement element, a compression spring is placed in the inner cavity, having a truncated profile and an uneven spiral pitch.

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